Watanabe Shiena, Lei Ming, Nakagawa Eiji, Takeshita Eri, Inamori Kei-Ichiro, Shishido Fumi, Sasaki Masayuki, Mitsuhashi Satomi, Matsumoto Naomichi, Kimura Yuiko, Iwasaki Masaki, Takahashi Yuji, Mizusawa Hidehiro, Migita Ohsuke, Ohno Isao, Inokuchi Jin-Ichi
Department of Child Neurology, National Center Hospital, National Center of Neurology and Psychiatry, Japan.
Department of Human Genetics, Yokohama City University Graduate School of Medicine, Japan.
Brain Dev. 2023 May;45(5):270-277. doi: 10.1016/j.braindev.2023.01.002. Epub 2023 Jan 21.
ST3GAL5 encodes GM3 synthase (ST3 beta-galactoside alpha-2,3-sialyltransferase 5; ST3GAL5), which synthesizes GM3 by transferring sialic acid to lactosylceramide. GM3, a sialic acid-containing glycosphingolipid known as ganglioside, is a precursor to the biosynthesis of various more complex gangliosides that are active in the brain. Biallelic variants in ST3GAL5 cause GM3 synthase deficiency (GM3SD), a rare congenital disorder of glycosylation. GM3SD was first identified in the Amish population in 2004.
We report two siblings diagnosed with GM3SD due to novel compound heterozygous ST3GAL5 variants. The novel ST3GAL5 variants, detected by whole-exome sequencing in the patients, were confirmed to be pathogenic by GM3 synthase assay. The clinical courses of these patients, which began in infancy with irritability and growth failure, followed by developmental delay and hearing loss, were consistent with previous case reports of GM3SD. The older sibling underwent deep brain stimulation for severe involuntary movements at the age of 9 years. The younger sibling suffered from acute encephalopathy at the age of 9 months and subsequently developed refractory epilepsy.
Reports of GM3SD outside the Amish population are rare, and whole-exome sequencing may be required to diagnose GM3SD in non-Amish patients. Since an effective treatment for GM3SD has not yet been established, we might select deep brain stimulation as a symptomatic treatment for involuntary movements in GM3SD.
ST3GAL5编码GM3合酶(ST3β - 半乳糖苷α - 2,3 - 唾液酸基转移酶5;ST3GAL5),该酶通过将唾液酸转移至乳糖基神经酰胺来合成GM3。GM3是一种含唾液酸的糖鞘脂,即神经节苷脂,是大脑中多种更复杂且具有活性的神经节苷脂生物合成的前体。ST3GAL5的双等位基因变异会导致GM3合酶缺乏症(GM3SD),这是一种罕见的先天性糖基化障碍疾病。GM3SD于2004年在阿米什人群中首次被发现。
我们报告了两名因新型复合杂合ST3GAL5变异而被诊断为GM3SD的兄弟姐妹。通过对患者进行全外显子测序检测到的新型ST3GAL5变异,经GM3合酶检测确认为致病性变异。这些患者的临床病程始于婴儿期,表现为易激惹和生长发育迟缓,随后出现发育迟缓及听力丧失,与先前GM3SD的病例报告一致。年长的兄弟姐妹在9岁时因严重的不自主运动接受了深部脑刺激治疗。年幼的兄弟姐妹在9个月大时患急性脑病,随后发展为难治性癫痫。
阿米什人群以外关于GM3SD的报告很少,对于非阿米什患者可能需要进行全外显子测序来诊断GM3SD。由于尚未确立针对GM3SD的有效治疗方法,对于GM3SD患者的不自主运动,我们可能选择深部脑刺激作为对症治疗手段。
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